Informace o publikaci

Structural study of an RNA polymerase subunit unique for gram-positive bacteria

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Název česky Strukturní studie podjednotky RNA polymerasy specifické pro gram-positivní bakterie
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MOTÁČKOVÁ Veronika ŠANDEROVÁ Hana NOVÁČEK Jiří ŽÍDEK Lukáš KRÁSNÝ Libor SKLENÁŘ Vladimír

Rok publikování 2009
Druh Konferenční abstrakty
Fakulta / Pracoviště MU

Přírodovědecká fakulta

Citace
Popis RNA polymerases (RNAPs) from gram-positive bacteria of Bacillus subtilis differ from well-studied RNA polymerases from gram-negative bacteria in the presence of two additional subunits interacting with the core enzyme, delta and omega1. Their role in the transcription machinery is not well understood. Recent reports indicating the importance of the delta subunit for the virulence of Staphylococcus aureus and Streptococcus agalactiae make the delta subunit interesting from the medical point of view. Although the influence of the delta subunit on the activity of RNA polymerase was indicated many years ago, its structure and function remained unknown. The C-terminal domain of the protein is mostly unstructured and highly negatively charged. That might mimic nucleic acids and compete with DNA/RNA for binding on RNAP. The well-structured N-terminal domain is proposed to bind to the RNAP core and probably orients the C-terminal domain on the surface of RNAP. Preliminary results showed that signals of atoms from a separate N-terminal domain overlap with corresponding peaks in spectra of the whole delta subunit. Therefore, we decided to focus on the well-ordered N-terminal domain to determine its structure using nuclear magnetic resonance (NMR). A standard set of triple resonance NMR experiments was measured and all resonances of the protein backbone were assigned. Resonance frequencies of the side-chains were assigned using 3D TOCSY- and NOESY-type spectra. Three-bond coupling constant 3J(HNHA) were obtained from 3D HNHA experiments. Chemical shifts of backbone nuclei, medium range NOEs, and the three-bond coupling constants were analyzed and secondary structure was predicted. Internuclear distance restraints were extracted from NOESY spectra. All backbone and side-chain resonance frequencies were assigned using the standard methodology. Secondary structure was predicted based on medium-range NOEs, J(HNHA), and chemical shifts, analyzed by programs CSI and TALOS. The NOE cross-peaks were assigned using program ARIA 2.1 The unambiguously assigned distance, torsion angle, and hydrogen bond restraints were used in the final refinement in program CNS with input scripts from the authors of the RECOORD database. Programs PROCHECK and WHATIF were used to check the quality of the calculated structures.
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